Contact Information

University: Korea Aerospace University

Team Members (with year of graduation): Younggwon Lee (4th), Dongkuk Choi (4th), Jumin Kwon (4th)

Faculty Advisers:

Email Address: lyk1616@naver.com

Submission Language

Project Information

Title:  Design and Analysis of propeller

Description: This application is for the design and analysis of propeller. This application was made based on the Blade Element Theory. Pitch, RPM, number of blades, aerodynamic coefficients of airfoil which is used in propeller and  the shape of the propeller are necessary to design and analysis of propeller.

Products

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The Challenge

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The Solution

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1. Blade Profile

The form of the blade looks like the attached file Blade.txt(by mm) is entered into program. you can set up fitting method and algorithm. Also you must input a data such as propeller pitch, RPM, number of blades.

2. Airfoil Data

Input form of propeller as data file like a SG6043.dat. Also input airfoil's graph of lift coefficient and drag coefficient as a data file like a  sg6043_aoa_cl_cd.txt. In particular, the lift coefficient and the drag coefficient is recommended over a range of -90 ° ~ 90 ° of angle of attack.

3. Propeller Performance

Propeller performance is calculated by the Blade Element Theory. Blade is calculated and integrated units of 0.001m, and show thrust, torque and efficiency.

4. Propeller Shape (3D)

The final design of the propeller geometry shown in 3D. It is possible to use the mouse to see while rotating. The result of desigh -Chord of blade section, thrust, torque, efficiency will be saved as files Result_r_chord_beta.txt and Result_speed_thrust_torque_efficiency.txt each file.

Attach Poster (30 in. x 38 in.) and LabVIEW Code

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Nominate Your Professor (optional)

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